The M-sigma and M-L Relations in Galactic Bulges and Determinations of   their Intrinsic Scatter

Kayhan Gultekin (1); Douglas O. Richstone (1); Karl Gebhardt (2); Tod; R. Lauer (3); Scott Tremaine (4); M. C. Aller (5); Ralf Bender (6); Alan; Dressler (7); S. M. Faber (8); Alexei V. Filippenko (9); Richard Green (10),; Luis C. Ho (7); John Kormendy (2); John Magorrian (11); Jason Pinkney (12); and Christos Siopis (13) ((1) Dept. of Astronomy; University of Michigan; (2); Department of Astronomy; University of Texas; (3) National Optical Astronomy; Observatory; (4) School of Natural Sciences; Institute for Advanced Study,; (5) Department of Physics; Institute of Astronomy; ETH Zurich; (6); Universitaets-Sternwarte der Ludwig-Maximilians-Universit\"at; (7); Observatories of the Carnegie Institution of Washington; (8) University of; California Observatories/Lick Observatory; Board of Studies in Astronomy and; Astrophysics; University of California; Santa Cruz; (9) Department of; Astronomy; University of California; Berkeley; (10) LBT Observatory,; University of Arizona; (11) Department of Physics; University of Durham (12); Department of Physics; Astronomy; Ohio Northern University; (13) Institut; d'Astronomie et d'Astrophysique; Universit\'e Libre de Bruxelles)

arXiv:0903.4897·astro-ph.GA·February 11, 2011

The M-sigma and M-L Relations in Galactic Bulges and Determinations of their Intrinsic Scatter

Kayhan Gultekin (1), Douglas O. Richstone (1), Karl Gebhardt (2), Tod, R. Lauer (3), Scott Tremaine (4), M. C. Aller (5), Ralf Bender (6), Alan, Dressler (7), S. M. Faber (8), Alexei V. Filippenko (9), Richard Green (10),, Luis C. Ho (7), John Kormendy (2), John Magorrian (11)

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TL;DR

This study refines the relationships between supermassive black hole mass and galaxy bulge properties, emphasizing the importance of intrinsic scatter and potential biases in their measurement and interpretation.

Contribution

It provides improved calibrations of the M-sigma and M-L relations, with detailed analysis of intrinsic scatter and biases affecting their estimation.

Findings

01

Intrinsic scatter is larger for spiral galaxies.

02

Sample culling biases the relations towards larger masses and slopes.

03

Results are robust across various measurement error assumptions.

Abstract

We derive improved versions of the relations between supermassive black hole mass (M_BH) and host-galaxy bulge velocity dispersion (sigma) and luminosity (L) (the M-sigma and M-L relations), based on 49 M_BH measurements and 19 upper limits. Particular attention is paid to recovery of the intrinsic scatter (epsilon_0) in both relations. We find log(M_BH / M_sun) = alpha + beta * log(sigma / 200 km/s) with (alpha, beta, epsilon_0) = (8.12 +/- 0.08, 4.24 +/- 0.41, 0.44 +/- 0.06) for all galaxies and (alpha, beta, epsilon_0) = (8.23 +/- 0.08, 3.96 +/- 0.42, 0.31 +/- 0.06) for ellipticals. The results for ellipticals are consistent with previous studies, but the intrinsic scatter recovered for spirals is significantly larger. The scatter inferred reinforces the need for its consideration when calculating local black hole mass function based on the M-sigma relation, and further implies that…

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